US5430133A - Semi-synthetic glycosaminoglycans with heparin or heparan structure of α-L-iduronic-2-O-sulfate acid modified in position 2 - Google Patents

Semi-synthetic glycosaminoglycans with heparin or heparan structure of α-L-iduronic-2-O-sulfate acid modified in position 2 Download PDF

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US5430133A
US5430133A US08/046,248 US4624893A US5430133A US 5430133 A US5430133 A US 5430133A US 4624893 A US4624893 A US 4624893A US 5430133 A US5430133 A US 5430133A
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glycosaminoglycan
formula
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heparin
nucleophilic
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Silvano Piani
Egidio Marchi
Gianfranco Tamagnone
Fabrizio Ungarelli
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Alfa Wasserman SpA
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    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08BPOLYSACCHARIDES; DERIVATIVES THEREOF
    • C08B37/00Preparation of polysaccharides not provided for in groups C08B1/00 - C08B35/00; Derivatives thereof
    • C08B37/006Heteroglycans, i.e. polysaccharides having more than one sugar residue in the main chain in either alternating or less regular sequence; Gellans; Succinoglycans; Arabinogalactans; Tragacanth or gum tragacanth or traganth from Astragalus; Gum Karaya from Sterculia urens; Gum Ghatti from Anogeissus latifolia; Derivatives thereof
    • C08B37/0063Glycosaminoglycans or mucopolysaccharides, e.g. keratan sulfate; Derivatives thereof, e.g. fucoidan
    • C08B37/0075Heparin; Heparan sulfate; Derivatives thereof, e.g. heparosan; Purification or extraction methods thereof
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07HSUGARS; DERIVATIVES THEREOF; NUCLEOSIDES; NUCLEOTIDES; NUCLEIC ACIDS
    • C07H5/00Compounds containing saccharide radicals in which the hetero bonds to oxygen have been replaced by the same number of hetero bonds to halogen, nitrogen, sulfur, selenium, or tellurium
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08BPOLYSACCHARIDES; DERIVATIVES THEREOF
    • C08B37/00Preparation of polysaccharides not provided for in groups C08B1/00 - C08B35/00; Derivatives thereof

Definitions

  • EP 0380943 a further structural modification was described, in a basic or neutral medium, which, starting from the products formed in the reaction conditions described in EP 0347588, and from the glycosaminoglycans with heparin or heparan structure used as starting products in EP 0347588, originated a range of new products, different from those described in EP 0347588 and new with respect to the state of the art, as demonstrated unmistakably by the chemical and physical characteristics and especially by the 13 C-NMR spectrum.
  • EP 0347588 describes semi-synthetic glycosaminoglycans containing an epoxy function between positions 2 and 3 of the unit of ⁇ -L-iduronic-2-O-sulfate acid taken as a starting point and the conditions of reaction necessary for obtaining them, while EP 0380943 describes products deriving from further transformation of the epoxide, confirmed as having one unit of non-sulfated ⁇ -L-iduronic or ⁇ -L-galacturonic acid, and the conditions of reaction necessary for obtaining them starting from the epoxide itself or, as an alternative, starting from the glycosaminoglycans with heparin or heparan structure themselves, used as starting products in EP 0347588.
  • One object of the present invention is to provide new semi-synthetic glycosaminoglycans with heparin or heparan structure characterized by the fact that they contain the unit of ⁇ -L-iduronic acid substituted in position 2 by a nucleophilic residue.
  • Another object of the invention consists of the process for obtaining the above-mentioned products starting from a suitable nucleophile and from the epoxides described in EP 0347588.
  • glycosaminoglycans with heparin or heparan structure is intended to indicate polysaccharides with a molecular weight of between about 3000 and about 50000 Daltons and characterized by the fact of possessing a disaccharide unit consisting of a uronic acid (which may be ⁇ -L-iduronic or ⁇ -D-glucuronic) and of ⁇ -D-glucosamine, connected, in alternate sequences, by 1,4-glycosidic bonds as described by Lindhal U., Kjellen L. in Thrombosis and Haemostasis 66, 44-48 (1991) and by Turnbull J. E., Gallagher J.
  • ⁇ -L-iduronic acid can be sulfated in position 2 and the glucosamine can be N- acetylated, N-sulfated, 6-O-sulfated, 3-O-sulfated, according to the variable positions of the substituents, at least 10 different disaccharide units are possible, whose combination may generate a large number of different sequences.
  • heparin structured glycosaminoglycans of natural origin the value of m is high and the disaccharide unit A represents about 80% of the disaccharide units; on the contrary, in heparan structured glycosaminoglycans of natural origin the value of n is high and the disaccharide unit B represents about 80% of the disaccharide units.
  • glycosaminoglycans of natural origin for example through reactions of N-desulfatation, possibly followed by reactions of N-acetylation, thus also obtaining semi-synthetic N-desulfated heparins or N-desulfated-N-acetylated heparins.
  • these glycosaminoglycans may be subjected to depolymerization processes by means of which the molecular weight is taken to levels generally between 3000 and 10000 Daltons.
  • the structural modification described in this invention for obtaining new semi-synthetic glycosaminoglycans with heparin or heparan structure refers to the unit of ⁇ -L-iduronic-2-O-sulfate acid where the partial or total selective substitution of the 0-sulfate group in position 2 with a nucleophilic residue, whatever it might be the desired compound with heparin or heparan structure, takes place.
  • the chemical process described in this invention can be applied to glycosaminoglycans with heparin or heparan structure which present all the possible sequences; ie. it is independent of the type and of the level of functionalization of the saccharide unit which precedes or follows in the sequence the unit of ⁇ -L-iduronic-2-O-sulfate acid which is the object of the reaction of structural modification.
  • the compounds obtained in this way will be indicated as "semi-synthetic glycosaminoglycans with heparin or heparan structure of general formula IV in which --Z(R 2 )R 1 is the nucleophilic group".
  • the reaction of structural modification which involves the partial or total introduction of the nucleophilic group in position 2 of the ⁇ -L-iduronic acid does not lead to the depolymerization of the glycosaminoglycans or alteration in the distribution of the molecular weight of the polysaccharide chains which form them, and for this reason the present reaction can be applied to glycosaminoglycans with heparin or heparan structure of any molecular weight.
  • the products obtained can however be subjected to the known processes of chemical or enzymatic depolymerization.
  • Z represents oxygen, sulphur or nitrogen
  • R 1 is straight (C 1-12 ) or branched (C 3-12 ) alkyl, amino, aryl, diazo or hydroxy groups substituted or not substituted
  • R 2 represents zero when Z is oxygen or sulphur or hydrogen or a straight (C 1-6 ) or branched (C 3-6 ) alkyl group or taken with R 1 forms a heterocyclic ring when Z is nitrogen.
  • the substituents of the group R 1 are selected from the halogen, amino, aryl, carboxy, guanidino, nitro, hydroxy, sulfonic, sulfuric, mercapto or ureido groups which may or may not be substituted.
  • the groups deriving from primary or secondary amines, secondary heterocyclical amines, amino-alcohols, aminothiols, amino acids, aminoesters, peptides, alcohols, phenols, mercaptans, dithiols, thiophenols, hydroxylamines, hydrazines, hydrazides and sodium azide are preferred in carrying out the present invention.
  • Particularly preferable in carrying out the present invention are the groups --Z(R 2 )R 1 originating from the following nucleophilic reagents: glycine, glycylglycine, L-cysteine, acetyl-L-cysteine, L-cysteine ethyl ester, 2-aminothiophenol, 1,3-propanedithiol, cysteamine, sodium azide, 2-aminoethyl hydrogen sulfate, taurine, thioglycolic acid, ⁇ -alanine ethyl ester, L-cystine, hydroxylamine, glycyltaurine, cysteinyltaurine, glycylcysteine, glycylphenylalanine, glycyltyrosine, 2-aminoethanol, glycine 2-aminoethyl ester, glycine 2-hydroxy-ethyl amide, arg
  • Another object of the present invention is the process used for synthesizing semi-synthetic glycosaminoglycans with heparin or heparan structure of general formula IV starting from semi-synthetic glycosaminoglycans with 2,3 epoxygulonic structure of general formula III ##STR7## where p, q, n and R have the meaning indicated above, obtained according to the process described in the published European patent application EP 0347588.
  • the process for obtaining semi-synthetic glycosaminoglycans with heparin or heparan structure of general formula IV involves reacting a semi-synthetic glycosaminoglycan with 2,3 epoxygulonic structure of general formula III with a nucleophilic reagent which includes the group II, in the presence of a solvent and a quantity of inorganic or organic base able to salify any acid groups present in the nucleophilic reagents and/or to free the same nucleophilic reagents from any salts they may have with substances of an acidic nature.
  • Using any base may be obviously unnecessary where the nucleophilic reagent contains no groups of an acidic nature and/or is not salified with a substance of an acid nature.
  • the reaction is carried out by dissolving the semi-synthetic glycosaminoglycan with 2,3-epoxygulonic structure of formula III in a solvent and by adding a solution containing the nucleophilic reagent and any inorganic or organic base.
  • the solvent may be dimethylacetamide, dimethylformamide, acetonitrile, dioxane, tetrahydrofuran, or mixtures thereof with water or water.
  • the reaction mixture is kept under stirring, possibly in an atmosphere of inert gas, preferably nitrogen, when the nucleophilic reagent is easily oxidizable, at a temperature of between 0° C. and 70° C., preferably between 10° C. and 30° C., for a period of time of between 2 and 120 hours, preferably between 24 and 96 hours.
  • inert gas preferably nitrogen
  • the reaction mixture is diluted with water when the solvent used is not water, then the pH of the aqueous solution is adjusted a neutral pH by adding an aqueous solution of hydrochloric acid.
  • the excess of nucleophilic reagent may optionally be removed, for example by extraction with a solvent which is not miscible with water, with chloroform or diethyl ether, or by filtration when it is not soluble in aqueous medium with neutral pH.
  • the clear aqueous solution may be further purified at a later stage by dialysis, cut off 3000 Daltons, first in running water and then in distilled water.
  • the semi-synthetic glycosaminoglycan with heparin or heparan structure of general formula IV is isolated through lyophilization of the aqueous solution which contains it or by precipitation on addition of a suitable solvent.
  • the quantity of nucleophilic agent used is between 1 and 200 molar equivalents with respect to the dimer unit of the glycosaminoglycan of general formula III containing the epoxy group, from 10 to 100 equivalents are preferably used.
  • the solvent is selected from among water and polar solvents such as dimethylacetamide, dimethylformamide, acetonitrile, dioxane, tetrahydrofuran or their mixtures with water.
  • the inorganic bases preferred are alkaline or alkaline-earth hydroxides, preferably sodium or potassium hydroxide, while the preferred organic bases are tertiary amines such as triethylamine.
  • the reaction is carried out by dissolving in water the semi-synthetic glycosaminoglycan with heparin or heparan structure of general formula III and by adding, under stirring, an aqueous solution containing from 10 to 100 molar equivalents of nucleophilic reagent with respect to the dimer unit of the glycosaminoglycan of general formula III containing the epoxy group and a quantity of sodium hydroxide sufficient to salify any acid groups present in the nucleophilic reagent and/or to release the same nucleophitic reagent from a possible salt with substances of an acid nature.
  • the reaction mixture in which the concentration of semi-synthetic glycosaminoglycan is preferably between 1% and 5%, is kept, under stirring, optionally in an atmosphere of inert gas, at room temperature for a period between 24 and 96 hours.
  • the pH of the mixture is neutralized with aqueous hydrochloric acid, the excess of the nucleophilic reagent can be removed by means of passive extraction with a solvent not miscible with water or by filtration and then the reaction solution may be subjected to dialysis, cut off 3000 Daltons, first with running water and then with distilled water for a period of between 6 and 24 hours.
  • the solution is finally subjected to lyophilization or a suitable solvent is added to It to obtain the semi-synthetic glycosaminoglycan with heparin or heparan structure of general formula IV.
  • a feature of the semi-synthetic glycosaminoglycans obtained in this way is that they lack 2-O-sulfate group of ⁇ -L-iduronic acid that has been substituted by heteroatoms, nitrogen, sulphur or oxygen, being part of the nucleophilic reagents such as amines, aminoacids, aminoesters, peptides, alcohols, mercaptans, phenols, thiophenols.
  • the semi-synthetic glycosaminoglycans with heparin or heparan structure described in the present invention thus have the advantage of an anti-thrombotic and thrombolytic activity which is basically equivalent, accompanied by a lower risk of hemorrhage, as is clearly demonstrated by the pharmacological bleeding tests carried out in vivo on animals, and of being absorbed orally.
  • the biological activity of the new semi-synthetic glycosaminoglycans was defined through some typical heparin tests; more specifically tests relative to the APTT Activated Partial Thromboplastin Time, to the time of bleeding and the anti-thrombotic activity were performed.
  • the APTT activity was defined according to the method of Larrieu M. J. and Weiland G. in Rev. Hematol., 12, 199, (1957).
  • each product in examination was dissolved in plasma collected from fasting rats, then scalar dilutions were performed to obtain the concentrations required by the method. 10 determinations were performed for each product and the activity of each product was expressed in terms of concentration, in mcg/ml, which doubles the time of APTT. This means that the plasmatic concentration of the product expressed in mcg/ml is measured, which doubles the coagulation time measured on the plasma of a rat and expressed as APTT.
  • the bleeding time was determined in the rat according to the method described by Dejana E. et al in Thromb. Haemost., 48, 108, (1982).
  • the test is carried out by using non-anesthetized rats of about 300 g weight, administering the compound being investigated, and after 10 minutes, cutting 2 cm of the tail and measuring the bleeding time with a cronometer.
  • the result was expressed by calculating the percentage of the time of extension of the bleeding In rats treated with the new semi-synthetic glycosaminoglycans with respect to the control rats.
  • the new semi-synthetic glycosaminoglycans showed a reduction in the bleeding time with respect to a standard heparin.
  • Anti-thrombotic activity was determined in the rat by means of the stasis venous thrombosis test described by Reyers S. et al in Thromb. Res., 18, 669-674, (1980).
  • the products were injected intravenously into the femoral vein 10 minutes before ligature of the inferior vena cava. After 2 hours the thrombi were removed, dried and weighed.
  • Anti-thrombotic activity was expressed both as percentage incidence (percentage of rats presenting the thrombus) and as reduction in weight of the thrombus with respect to the control thrombus.
  • Determination of the free amino groups was performed by means of u.v./visible spectrophotometry at 358 nm on the product obtained through reaction with trinitrobenzensulfonic acid (TNBS), according to the method described by Satake K. et al in J. Biochem., 47, 654, (1960), while determination of the sulphur was performed by means of potentiometry.
  • the specific rotatory power was measured in aqueous solution in a 1% concentration.
  • the 13 C-NMR spectra were performed at 50.3 MHz with a Varian Gemini 200 spectrometer using the sodium salt of 3-(trimethylsilyl) propionic acid deuterated (D 4 ) in the positions 2,2 and 3,3 as internal reference standard.
  • the standard heparin taken as reference to evaluate the biological activity of the new glycosaminoglycans described in the present invention shows the following values of pharmacological activity according to the tests described above:
  • Anti-thrombotic activity (ED 50 ):
  • a solution containing 3760 mg of glycine and 2000 mg of sodium hydroxide in 22,5 ml of water is added, at room temperature, to a solution containing in 2,5 ml of water 500 mg of semi-synthetic glycosaminoglycan with 2,3 epoxygulonic structure described in example 3 of EP 0347588.
  • reaction mixture is kept under stirring at room temperature for 48 hours, then pH is neutralized through the addition of hydrochloric acid and the solution is then subjected to dialysis, cut off 3000 Daltons, for 12 hours in running water and for 6 hours in distilled water and is finally lyophilized.
  • 520 Mg of product of the title are obtained with the following analytical and pharmacological characteristics:
  • Anti-thrombotic activity (ED 50 ):
  • the reaction is performed in the same conditions as described in Example 1 using 6600 mg of glycylglycine instead of 3760 mg of glycine and extending the reaction time to 96 hours.
  • reaction is carried out under the same conditions as described in Example 1 using 8780 mg of L-cysteine monohydrate hydrochloride instead of 3760 mg of glycine and 4000 mg of sodium hydroxide instead of 2000 mg.
  • Anti-thrombotic activity (ED 50 ):
  • Weight loss 0,40 mg/kg
  • Anti-thrombotic activity (ED 50 ):
  • the reaction is carried out under the same conditions as described in Example 1 using 6300 mg of 2-aminothiophenol instead of 3760 mg of glycine and extending the reaction time to 72 hours.
  • the excess of aminothiophenol is eliminated by extracting it with chloroform.
  • the aqueous solution is then subjected to dialysis and lyophilization, as described in Example 1, obtaining 690 mg of product of the title with the following analytical and pharmacological characteristics:
  • Anti-thrombotic activity (ED 50 ):
  • reaction is carried out under the same conditions as described in Example 1 in a nitrogen atmosphere using 5390 mg of 1,3-propandithiol instead of 3760 mg of glycine and extending the reaction time to 90 hours.
  • reaction is carried out under the same conditions as described in Example I using 7050 mg of 2-aminoethylhydrogen sulfate instead of 3760 mg of glycine and submitting the reaction mixture to filtration before subjecting it to dialysis.
  • Anti-thrombotic activity (ED 50 ):
  • reaction is carried out under the same conditions as described in Example 1 using 6260 mg of taurine instead of 3760 mg of glycine and extending the reaction time to 72 hours.
  • Anti-thrombotic activity (ED 50 ):
  • reaction is carried out in a nitrogen atmosphere in the same conditions as described in Example 1 using 7416 mg of thioglycolic acid and 6450 mg of sodium hydroxide in 20 ml of water and extending the reaction time to 72 hours.
  • 450 Mg of product of the title are obtained with the following analytical and pharmacological characteristics:
  • Anti-thrombotic activity (ED 50 ):
  • the reaction is carried out in a nitrogen atmosphere in the same conditions as described in Example 1 using 5700 mg of cysteamine hydrochloride instead of 3760 mg of glycine and extending the reaction time to 72 hours.
  • reaction is carried out in the same conditions as described in Example 1 using 7680 mg of ⁇ -alanine ethyl ester hydrochloride instead of 3760 mg of glycine and extending the reaction time to 72 hours.
  • Anti-thrombotic activity (ED 50 ):
  • Anti-thrombotic activity (ED 50 ):
  • the reaction is in the same conditions as described in Example 1 using 500 mg of semi-synthetic glycosaminoglycan with 2,3-epoxygulonic structure as described in Example 5 of EP 0347588.

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US08/046,248 1992-04-17 1993-04-13 Semi-synthetic glycosaminoglycans with heparin or heparan structure of α-L-iduronic-2-O-sulfate acid modified in position 2 Expired - Lifetime US5430133A (en)

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ITBO920141A IT1260137B (it) 1992-04-17 1992-04-17 Glicosaminoglicani semisintetici a struttura eparinica od eparanica modificati nella posizione 2 dell'acido alfa-l-iduronico-2-0-solfato
ITB092A0141 1992-04-17

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US6255295B1 (en) 1996-12-23 2001-07-03 Nutramax Laboratories, Inc. Aminosugar, glycosaminoglycan or glycosaminoglycan-like compounds, and s-adenosylmethionine composition for the protection, treatment, repair, and reduction of inflammation of connective tissue
US20030203385A1 (en) * 2002-03-11 2003-10-30 Ganesh Venkataraman Analysis of sulfated polysaccharides
US20040038932A1 (en) * 2000-09-08 2004-02-26 Jack Hirsh Antithrombotic compositions
US20060240473A1 (en) * 2002-07-19 2006-10-26 The University Of Liverpool Saccharide libraries
US7259152B2 (en) 2000-06-07 2007-08-21 Alfa Wasserman, Inc. Methods and compositions using sulodexide for the treatment of diabetic nephropathy
US20080119438A1 (en) * 1999-06-30 2008-05-22 Weitz Jeffrey I Heparin compositions that inhibit clot associated coagulation factors
US20110207919A1 (en) * 2010-01-19 2011-08-25 Momenta Pharmaceuticals, Inc. Evaluating heparin preparations
DE102011077393A1 (de) * 2011-06-10 2012-12-13 Johannes Reinmüller Antiinfektives Mittel
US9068957B2 (en) 2011-02-21 2015-06-30 Momenta Pharmaceuticals, Inc. Evaluating heparin preparations
US9139876B1 (en) 2007-05-03 2015-09-22 Momenta Pharmacueticals, Inc. Method of analyzing a preparation of a low molecular weight heparin
US9540454B2 (en) 2010-09-14 2017-01-10 University Of Miyazaki High purity heparin and production method therefor

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US5696100A (en) * 1992-12-22 1997-12-09 Glycomed Incorporated Method for controlling O-desulfation of heparin and compositions produced thereby
IT1264101B1 (it) * 1993-03-29 1996-09-10 Alfa Wassermann Spa Processo per la sintesi di glicosaminoglicani semisintetici a struttura eparinica od eparanica modificati nella posizione 2
IT1264102B1 (it) * 1993-03-29 1996-09-10 Alfa Wassermann Spa Processo per la sintesi di glicosaminoglicani semisintetici contenenti acido alfa-l-galatturonico sostituito con radicali
US6127347A (en) * 1994-01-12 2000-10-03 Univ Michigan Non-anticoagulant chemically modified heparinoids for treating hypovolemic shock and related shock syndromes
US5583121A (en) * 1994-01-12 1996-12-10 Michigan State University Non-anticoagulant chemically modified heparinoids for treating hypovolemic shock and related shock syndromes
WO2009014715A2 (en) * 2007-07-23 2009-01-29 The University Of North Carolina At Chapel Hill Enzymatic synthesis of sulfated polysaccharides without iduronic acid residues
ES2910476T3 (es) 2010-12-23 2022-05-12 Univ North Carolina Chapel Hill Síntesis quimioenzimática de heparinas de peso molecular ultra bajo estructuralmente homogéneas
ES2924830T3 (es) 2013-06-17 2022-10-11 Univ North Carolina Chapel Hill Moléculas de heparina reversibles
JP7330893B2 (ja) 2017-03-10 2023-08-22 ザ ユニバーシティ オブ ノース カロライナ アット チャペル ヒル 短時間作用型ヘパリンベースの抗凝集剤化合物及び方法
WO2019010216A1 (en) 2017-07-03 2019-01-10 The University Of North Carolina At Chapel Hill ENZYMATIC SYNTHESIS OF HOMOGENEOUS CHONDROITIN SULFATE OLIGOSACCHARIDES
WO2019090203A1 (en) 2017-11-03 2019-05-09 The University Of North Carolina At Chapel Hill Sulfated oligosaccharides having anti-inflammatory activity
US11633424B2 (en) 2018-06-20 2023-04-25 The University Of North Carolina At Chapel Hill Cell protective methods and compositions

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US20080119438A1 (en) * 1999-06-30 2008-05-22 Weitz Jeffrey I Heparin compositions that inhibit clot associated coagulation factors
US7259152B2 (en) 2000-06-07 2007-08-21 Alfa Wasserman, Inc. Methods and compositions using sulodexide for the treatment of diabetic nephropathy
US20040038932A1 (en) * 2000-09-08 2004-02-26 Jack Hirsh Antithrombotic compositions
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EP0565863B1 (en) 1997-06-18
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CA2093147A1 (en) 1993-10-18
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NO305992B1 (no) 1999-08-30
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EP0565863A3 (en) 1993-11-10
FI931741A (fi) 1993-10-18
NO931184D0 (no) 1993-03-30
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IT1260137B (it) 1996-03-28
DE69311619D1 (de) 1997-07-24
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